A vacuum channel transistor controls electrons at the cathode to suppress gate leakage, letting it work inside amplifiers and ...

For decades, the speed of transistors has been approaching its physical limit. Now, researchers have built a new type of ...

By electrochemically introducing phosphonate ester groups into conductive polymer films, researchers at Science Tokyo have ...

Rapidus Japan 2nm chip program draws a fresh ¥150 billion equity injection as Tokyo shifts from grants to direct ownership, ...

TSMC (NYSE:TSM) has started mass production of 2nm chips using nanosheet Gate-All-Around transistors. The company is currently the only manufacturer producing this level of advanced silicon at scale.

Researchers in Japan have created some of the world's smallest semiconducting nanotubes, structures 100,000 times thinner ...

Over the past decades, electronics engineers worldwide have been trying to develop devices that could enable even faster communications between devices, all while consuming less energy. To meet the ...

By electrochemically introducing phosphonate ester groups into conductive polymer films, researchers at Science Tokyo have addressed a fundamental ...

Roll-on nanoscale membranes make circuits that stretch across 3 layers of silicon ...

As traditional chip miniaturization slows, researchers have found a way to pack more computing power into the same space by stacking silicon circuits in multiple layers. The new process uses ...

Huawei 1.4 nm roadmap uses Tau Scaling Law to target 2031 chip density, but lithography, power and yield remain the test.

Forward-looking: For years, the chip industry has chased better performance by shrinking transistors and squeezing more of them onto a flat slice of silicon. That strategy is running into hard limits.